JP2004310184A - Medical imaging management system and communication method for use therewith - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To increase the reliability and security of a medical imaging management system by making it easy to investigate the cause of any system error and to determine the correlation between imaging order information and imaging-related information at early stages. <P>SOLUTION: In the medical imaging management system 100, a controller 10 accesses the HTTP server function of an RIS server 50 using a versatile browser for an RIS client, and selects and obtains imaging order information from the imaging order DB of the RIS server 50. The sending and receiving of the imaging order information and imaging session information after inspection between the controller 10 and the RIS server 50 is carried out via an HDD 16a to store the data sent and received. Because the information under control of the controller can be made clear, should the medical imaging management system find an error in information such as the imaging order information, it is easy to separate an information management system from the controller in terms of the cause of the error to increase the reliability and security of the medical imaging management system. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medical imaging management system that captures a medical image using radiation such as X-rays, and a communication method in the medical imaging management system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in the medical field, medical image capturing apparatuses such as CR (Computed Radiography), CT (Computed Tomography), and MRI (Magnetic Resonance Imaging) apparatuses for acquiring radiographic images as digital image data for diagnosing diseases for patients. Is used. These medical image capturing apparatuses are connected to an information system such as HIS (Hospital Information System; Hospital Information System) / RIS (Radiologic Information System; Radiology Information System) via a network to receive orders for medical image capturing and to perform examinations. By managing data and the like, efficiency in the hospital is improved.
[0003]
For example, a CR device includes an X-ray imaging device, a medical image reading device that reads radiation image information of a subject accumulated in a stimulable phosphor plate by X-ray imaging, a control of a medical image reading device, and a medical image reading device. It is configured by a control device that displays a medical image read by the reading device, performs image processing on the medical image, and saves the medical image and information related to imaging (for example, imaging date and time, radiation information, processing parameters, findings, and the like). Have been. The control device transmits, from the RIS server, imaging order information such as a patient ID, an imaging region, an imaging direction, the number of images, an X-ray condition, an imaging location, and a reading condition of the reading device, which are registered by the RIS terminal, via a network. It receives and manages imaging based on the imaging order information, and transmits the taken medical image and imaging-related information to the RIS server as imaging execution information. Then, the RIS server manages the imaging order information and the imaging-related information.
[0004]
In the medical image capturing management system configured by connecting the medical image capturing apparatus and the RIS server to each other via a network, a technique for improving the cost and efficiency of the system is disclosed.
[0005]
For example, Patent Literature 1 discloses a system in which a diagnostic terminal that does not have a protocol specific to a medical system connects to an image server via a Web to obtain image data and a display program and display a processed image. .
[0006]
Patent Literature 2 discloses a technology that integrates an RIS terminal function on a console of a modality such as CT or MRI, which corresponds to the control device.
[0007]
[Patent Document 1]
JP-A-11-239165
[Patent Document 2]
JP 2002-219122 A
[0008]
[Problems to be solved by the invention]
By the way, in the medical image photographing management system, the RIS device and the medical image photographing device such as CR and CT may be constituted by different manufacturers. In such a case, when a system error occurs, it becomes complicated to determine the cause, so that it takes time to investigate the cause and delays in the workflow of photographing.
[0009]
It is an object of the present invention to facilitate the investigation of the cause when a system error occurs, and to improve the reliability and safety of a medical image photographing management system. It is another object of the present invention to provide a system for determining the correspondence between the photographing order information and the photographing related information at an early stage.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, the invention described in claim 1 is
An imaging device for imaging a medical image of a patient;
An information management device for generating and managing shooting order information,
A reading device for reading the taken medical image,
Comprising at least one control device associating the imaging order information with the read medical image,
The information management device, the reading device, a medical imaging management system in which the control device is connected via a communication network,
The control device has storage means and input means for inputting imaging-related information related to the imaging order information, and stores the imaging order information received from the information management apparatus in the storage means, The input of the imaging-related information and the input of the imaging-related information are stored in the storage unit in association with each other, and the stored imaging order information and the imaging-related information are transmitted to the information management device.
[0011]
The invention according to claim 9 is
An imaging device for imaging a medical image of a patient;
An information management device for generating and managing shooting order information,
A reading device for reading the taken medical image,
At least one control device that associates the imaging order information with the read medical image,
A communication method in a medical imaging management system in which the information management device, the reading device, and the control device are connected via a communication network,
In the control device, a step of storing the imaging order information received from the information management device in storage means,
A step of storing the imaging-related information related to the imaging order information in the storage unit in association with the imaging order information, and transmitting the stored imaging order information and the imaging-related information to the information management device;
It is characterized by including.
[0012]
According to the first and ninth aspects of the present invention, in the medical image photographing management system, the control device stores the photographing order information received from the information management device in the storage unit, and photographs the inputted photographing-related information. The information is stored in the storage unit in association with the order information, and then transmitted to the information management device. Therefore, since the information under the control of the control device can be clarified, when the information such as the imaging order information is found in the medical image capturing management system, the information management device and the control device It is easy to determine the cause of the problem, and the reliability and safety of the medical image photographing management system can be improved.
[0013]
The invention according to claim 2 is the invention according to claim 1,
The information management device has an HTTP server means,
The control device has a general-purpose browser means, selects the imaging order information to be acquired from the information management device through the HTTP server means and the general-purpose browser means,
The information management device transmits the selected imaging order information to the control device.
[0014]
According to the second aspect of the present invention, the information management device has an HTTP server means, the control device has a general-purpose browser means, and the control device has a photographing device which is obtained from the information management device through the HTTP server means and the general-purpose browser means. The order information is selected and acquired from the information management device. Therefore, the control device can easily select and acquire the photographing order information from the information management device without greatly changing the internal configuration only by installing a general-purpose browser.
[0015]
The invention according to claim 3 is the invention according to claim 1 or 2,
The imaging device is an imaging device that uses a cassette that records the medical image,
The reading device reads the identification information of the cassette together with the medical image and transmits the information to the control device,
The control device associates the imaging order information with the medical image and / or the imaging-related information based on the identification information of the cassette.
[0016]
According to the invention described in claim 3, the control device can associate the imaging order information with the medical image and / or the imaging-related information in the imaging using the cassette.
[0017]
The invention according to claim 4 is the invention according to any one of claims 1 to 3,
The input unit is capable of inputting the photographing order information and inputting the photographing-related information, and the control device is configured to control the input photographing order information and the photographing-related information related to the photographing order information. Can be associated with each other.
[0018]
According to the fourth aspect of the present invention, in the control device, the input for generating the imaging order information and the input of the imaging related information can be performed, and the input imaging order information and the imaging related information related to the imaging order information can be input. Can be associated with. Therefore, in the control device, it is possible to perform from the input of the photographing order information and the photographing related information to the association of the photographing order information and the related photographing related information.
[0019]
The invention according to claim 5 is the invention according to any one of claims 1 to 4,
The control device determines whether communication with the information management device is possible, and when the communication is possible, transmits the imaging order information and the imaging related information stored in the storage unit to the information management device. And deleting the transmitted information from the storage means.
[0020]
According to the invention described in claim 5, the control device determines whether communication with the information management device is possible, and when the communication is possible, the control unit determines whether or not the photographing order stored in the storage unit in the information management device. The information and the photographing-related information are transmitted, and the transmitted information is deleted from the storage unit. Therefore, since information is transmitted when communication is possible, communication can be performed without incurring a delay in the workflow of shooting. Further, since the information which is no longer under the control of the control device is deleted from the storage means, the storage means can be used efficiently.
[0021]
The invention according to claim 6 is the invention according to any one of claims 1 to 5,
The control device and the information management device transmit and receive the imaging order information and imaging-related information associated with the imaging order information based on FTP.
[0022]
According to the invention described in claim 6, since the photographing order information and the photographing related information associated with the photographing order information are transmitted and received based on the FTP, the information can be easily obtained in file units using a general-purpose communication protocol. Can be exchanged, and necessary information can be transmitted and received quickly.
[0023]
The invention according to claim 7 is the invention according to claim 6, wherein
The transmission and reception of the photographing order information and the photographing-related information associated with the photographing order information are performed in units of one photographing order.
[0024]
According to the seventh aspect of the present invention, since transmission / reception is performed in units of one imaging order, necessary information can be transmitted / received quickly.
[0025]
The invention according to claim 8 is the invention according to claim 7,
The transmitted / received imaging order information and the imaging-related information associated with the imaging order information are described in a DICOM TAG format.
[0026]
According to the invention described in claim 8, information can be transmitted and received for each file described in the DICOM TAG system.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, the scope of the invention is not limited to the illustrated example.
[0028]
First, the configuration of the present embodiment will be described.
FIG. 1 is a conceptual diagram showing a system configuration of a medical image photographing management system 100 according to the present invention. As shown in FIG. 1, the medical imaging management system 100 includes a control device 10, a medical image reading device 20, an X-ray imaging device 30, a cassette 40, an RIS server 50 as an information management device, and the like. The control device 10, the medical image reading device 20, and the RIS server 50 are connected via a network N so that data can be transmitted and received. Further, a configuration may be employed in which an HIS server, a RIS dedicated terminal, an image reference terminal, an image output device, and the like (not shown) are connected to the network N.
[0029]
The control device 10 receives the imaging order information from the RIS server 50, associates the imaging order information with a cassette ID for identifying the cassette 40, and reads the information by the medical image reading device 20 in accordance with an input instruction from the radiologist. The received medical image and cassette ID are received, the imaging order information is associated with the medical image, and the imaging execution information including the cassette ID and the image ID is transmitted to the RIS server 50 in association with the imaging order information. Note that the imaging execution information is information related to imaging (imaging related information), and includes at least information for associating imaging order information with a medical image, for example, an imaging ID, a cassette ID, and an image ID. It may be included or not included.
[0030]
The medical image reading device 20 is a medical image reading device that reads a medical image recorded on the cassette 40. The medical image reading apparatus 20 irradiates the stimulable phosphor sheet of the cassette 40 with excitation light, photoelectrically converts the stimulable light emitted from the sheet, and A / D converts the obtained image signal. , Obtain a medical image. Further, the medical image reading device 20 reads a cassette ID attached to the cassette 40 and transmits a medical image and a cassette ID corresponding to the medical image to the control device 10.
[0031]
The X-ray imaging apparatus 30 irradiates a patient, which is a subject, with X-rays to perform imaging, and records radiation image information on a cassette 40 that is detachable from the apparatus main body. The cassette 40 has a built-in stimulable phosphor sheet for accumulating a part of the radiation energy, and is irradiated with the radiation energy from the radiation source and passed through the subject arranged between the radiation source and the cassette. A part is accumulated in the stimulable phosphor sheet.
[0032]
The RIS server 50 generates imaging order information based on imaging order data transmitted from the control device 10 or another RIS dedicated terminal, stores the imaging order information in the imaging order DB 535, collectively manages the imaging order information, and responds to a request from the control device 10. Search and transmission of photographing order information are performed based on the information. The photographing execution information transmitted from the control device 10 is stored in the photographing order DB 535 in association with the photographing order information.
[0033]
As the network N, various line forms such as a LAN (Local Area Network), a WAN (Wide Area Network), and the Internet can be applied. In addition, wireless communication or infrared communication may be used if permitted within a medical institution such as a hospital. However, when transmitting and receiving imaging order information, important imaging information is included. Is preferred.
[0034]
Next, the control device 10 and the RIS server 50 which are main components in the present invention will be described in detail.
[0035]
First, the internal configuration of the control device 10 will be described.
FIG. 2 is a block diagram illustrating a functional configuration of the control device 10. As shown in FIG. 2, the control device 10 includes a CPU 11, an input unit 12, a display unit 13, a communication control unit 14, a RAM 15, a storage device 16 having an HDD 16a, and the like. I have.
[0036]
The CPU 11 reads out system programs and various control programs stored in the storage device 16, expands them in the RAM 15, and centrally controls the operation of each unit according to the control programs. Further, the CPU 11 executes various processes according to the program developed in the RAM 15, temporarily stores the processing results in the RAM 15, and causes the display unit 13 to display the processing results.
[0037]
The input unit 12 includes a keyboard provided with a cursor key, numeric input keys, various function keys, and the like, and outputs a press signal corresponding to a key pressed on the keyboard to the CPU 11. Note that the input unit 12 may include a pointing device such as a mouse and a touch panel, and other input devices as necessary.
[0038]
The display unit 13 includes an LCD, a CRT (Cathode Ray Tube), or the like, and displays an input instruction from the input unit 12, data, and the like in accordance with an instruction of a display signal input from the CPU 11.
[0039]
The communication control unit 14 includes a LAN adapter, a router, a TA (Terminal Adapter), and the like, and controls communication with each device connected to the network N via a dedicated line or a communication line such as an ISDN line. .
[0040]
The RAM 15 forms a storage area for temporarily storing various programs, input or output data, parameters, and the like, which can be executed by the CPU 11 and read from the storage device 16 in various processes controlled by the CPU 11.
[0041]
The storage device 16 is configured by an HDD (Hard Disc Drive), a nonvolatile semiconductor memory, or the like, and stores a system program executed by the CPU 11, various application programs corresponding to the system program, processing results, and the like. Further, it has a recording medium (not shown) in which programs and data are stored in advance, and this recording medium is constituted by a magnetic or optical recording medium or a semiconductor memory, and is fixed to the storage device 16 or It is mounted detachably. These various programs are stored in the form of readable program codes, and the CPU 11 sequentially executes operations according to the program codes.
[0042]
As shown in FIG. 3, the storage device 16 has a CR application program 161 for executing a function as a CR control device, and a RIS client general-purpose browser 162 for executing a function as a RIS client. Is stored. The CPU 11 executes various processes by software processing in cooperation with these programs.
[0043]
The CR application program 161 is a program for realizing functions including the following functions described in the form of a computer-readable program code.
1. Network communication function
With this function, data is transmitted / received to / from various devices connected to the network N via the communication control unit 14. A function of confirming whether the network N or the RIS server 50 is in a communicable state, a function of storing input order data and photographing execution information in the HDD 16a, and then transmitting the order data to the RIS server 50 based on FTP. , A function of storing data received from the RIS server 50 in the HDD 16a, and a function of transmitting untransmitted data stored in the HDD 16a at regular intervals.
2. Communication function with medical image reading device 20
With this function, the distribution destination of the read image and the like are transmitted to the medical image reading device 20 via the communication control unit 14. Further, it receives a medical image and a cassette ID from the medical image reading device 20.
3. Image processing function
With this function, gradation processing, frequency processing, and dynamic range compression processing are performed on a medical image read by the medical image reading apparatus 20 using processing parameters set in advance according to imaging conditions included in the imaging order information. And the like. In addition, image processing such as enlargement / reduction and rotation is performed according to an instruction from the input unit 12.
4. Image display function
With this function, the medical image received from the medical image reading device 20 is fetched into the display frame memory 165 and displayed on the display unit 13. In addition, in response to an instruction from the input unit 12, a specified medical image is searched from among the medical images stored in the image DB 163, retrieved into the display frame memory 165, and displayed on the display unit 13.
5. Image storage function
With this function, the medical image received from the medical image reading device 20 is stored in the image DB 163.
6. A function to associate shooting order information with shooting execution information
With this function, the cassette ID input from the input unit 12 is associated with the designated imaging order information, the imaging order information is associated with the medical image by the cassette ID, and the cassette ID, image ID, imaging date, radiation information, etc. The execution information is associated with the shooting order information.
7. Communication function with portable terminal for portable photography
With this function, the photographing order information is transmitted to the portable terminal for portable photographing, and the portable terminal receives the information on the correspondence between the photographing order information and the cassette ID.
[0044]
Further, the storage device 16 has a general-purpose browser 162 for the RIS client. The RIS client general-purpose browser 162 is a program for performing a function of communicating with a web server such as the RIS server 50 via the network N and interpreting the transferred HTML (HyperText Markup Language) file.
[0045]
As shown in FIG. 2, the storage device 16 includes a relatively large-capacity HDD 16a as storage means. As shown in FIG. 4, the HDD 16a stores a captured medical image and an image DB 163 that stores imaging execution information, data received based on the RIS server 50 and FTP (File Transfer Protocol), and data to be transmitted. And a display frame memory 165 for temporarily storing information to be displayed.
[0046]
Next, the internal configuration of the RIS server 50 will be described.
FIG. 5 is a block diagram showing a functional configuration of the RIS server 50. As shown in FIG. 5, the RIS server 50 includes a CPU 51, a RAM 52, a storage device 53 having an HDD 53a, a communication control unit 54, and the like.
[0047]
The CPU 51 reads out system programs and various control programs stored in the storage device 53, expands them in the RAM 53, and centrally controls the operation of each unit according to the control programs. Further, the CPU 51 executes various processes according to the program developed in the RAM 52. That is, the CPU 51 generates imaging order information from the imaging order data received via the communication control unit 54 in accordance with the developed program, and stores the generated imaging order information in the imaging order DB 535, or stores the received imaging execution information in the imaging order DB 535. By storing in association with the imaging order information, the imaging order information and the imaging execution information in the entire network N are determined and managed.
[0048]
Further, the CPU 51 executes an HTTP server function according to an HTTP (HyperText Transfer Protocol) server program 531 described later.
[0049]
The RAM 52 forms a storage area for temporarily storing various programs, input or output data, parameters, and the like, which can be executed by the CPU 51 and read from the storage device 53 in various processes controlled by the CPU 51.
[0050]
The storage device 53 is configured by an HDD (Hard Disc Drive), a nonvolatile semiconductor memory, or the like, and stores a system program executed by the CPU 51, various processing programs corresponding to the system program, processing results, and the like. Further, it has a recording medium (not shown) in which programs and data are stored in advance, and this recording medium is constituted by a magnetic or optical recording medium or a semiconductor memory, and is fixed to the storage device 53, or It is mounted detachably. These various programs are stored in the form of readable program codes, and the CPU 51 sequentially executes operations according to the program codes.
[0051]
Further, as shown in FIG. 5, an HTTP (HyperText Transfer Protocol) server program 531 for executing the HTTP server function is stored in the storage device 53. As shown in FIG. 6, the HTTP server program 531 includes a CGI script 532, an HTML file 533, HTTP server software 534 having a CGI function, and the like. The CGI script 532 is software that operates using the CGI function. When the CGI script 532 is described in the HTML file 533 so as to execute the CGI script, the CGI script is transmitted from the control device 10 to the general RIS client browser. 532 can be performed.
[0052]
In the present embodiment, the photographing order information of the day is searched from the photographing order DB 535 (details will be described later) of the RIS server 50, and a photographing order list is created as an HTML file and displayed on the general browser for the RIS client of the control device 10. A CGI script 532 describing a function to read out the photographing order information selected on the photographing order list by the control device 10 from the photographing order DB 535, transmitting the information based on the FTP, and displaying the CGI script 532 is described. It is stored as
[0053]
In addition, a CGI script or the like describing a function of generating imaging order information based on the imaging order data input from the imaging order input screen in the control device 10 and registering the information in the imaging order DB 535 is stored as the CGI script 532.
[0054]
The HTML file 533 includes, for example, an RIS menu screen transmitted when accessed by a general-purpose browser for a RIS client.
[0055]
As shown in FIG. 5, the storage device 53 includes a large-capacity HDD 53a as storage means. The HDD 53a has an imaging order DB 535 as shown in FIG. The imaging order DB 535 includes imaging order information such as an imaging order ID, a patient ID, an imaging region, the number of images to be imaged, and a planned imaging date, and a cassette ID, an image ID, an imaging date and time, and radiation information associated with the imaging order information after the examination. And the like are stored.
[0056]
The communication control unit 54 includes a LAN adapter, a router, a TA (Terminal Adapter), and controls communication with each device connected to the network N via a dedicated line or a communication line such as an ISDN line. .
[0057]
Next, a communication operation performed between the control device 10 and the RIS server 50 will be described.
FIG. 7 shows a schematic description of communication between the control device 10 and the RIS server 50. As shown in FIG. 7, the control device 10 transmits and receives data based on the HTTP protocol by having the function of the RIS client general-purpose browser and the RIS server 50 having the HTTP server function. In addition, the control device 10 and the RIS server 50 transmit and receive data of imaging order information and imaging execution information based on the FTP protocol. The transmission and reception of the data of the imaging order information and the imaging execution information based on the FTP protocol is performed via the HDD 16a.
[0058]
FIG. 8 shows a processing sequence executed by the control device 10 accessing the RIS server 50 on a general-purpose browser for RIS clients.
When the RIS server 50 is accessed by the RIS client general-purpose browser of the control device 10 (step S1), the RIS menu screen is transmitted by the RIS server 50 (step S2). When a request for a list of imaging orders to be performed on the current day is instructed from the RIS menu screen by the input unit 12 of the control device 10 (step S3), the RIS server 50 searches the imaging order DB 535 for the imaging order information for the current day. (Step S4), an imaging order list in the HTML file format is generated and transmitted to the control device 10 (Step S5).
[0059]
When the control device 10 receives the photographing order list (step S6), it is displayed on the display unit 13 (step S7). When the photographing order information is selected from the displayed photographing order list (step S8), the selected photographing order information is read from the photographing order DB 535 in the RIS server 50, and photographed by the control device 10 based on the FTP. It is transmitted in order units (step S9).
[0060]
When the imaging order information is received by the control device 10, the received imaging order information is stored in the transmission / reception data storage unit 164 of the HDD 16a (step S10), and displayed on the display unit 13 (step S11).
[0061]
FIGS. 9A and 9B show an example of the photographing order list screen 131 displayed on the display unit 13. As shown in FIGS. 9A and 9B, the imaging order list screen 131 includes an imaging order list area 131 a for displaying the imaging order list of the day, and an imaging order for displaying the imaging order information acquired by the control device 10. The information area 131b is displayed. When the imaging order information is selected from the imaging order list area 131a shown in FIG. 9A, the selected imaging order information is acquired from the imaging order DB 535 of the RIS server 50, and as shown in FIG. This is displayed in the imaging order information area 131b.
[0062]
When the imaging order information transmitted from the RIS server 50 is received and stored in the HDD 16a according to the processing sequence described above, the control device 10 can use and manage the imaging order information thereafter. That is, the control device 10 associates the imaging order information with the cassette ID according to an instruction from the input unit 12 before the examination according to the CR application by the CPU 11, and the medical image and the cassette ID received from the medical image reading apparatus after the examination. The shooting execution information is associated with the shooting order information based on the.
[0063]
Here, the photographing order information is input and generated as follows.
In the control device 10, the RIS server 50 is accessed based on the HTTP by the RIS client general-purpose browser function, and the imaging order input screen is acquired. When the order data is input from the imaging order input screen, the input data is It is transmitted to the RIS server 50 based on HTTP. In the RIS server 50, imaging order information is generated by attaching an imaging ID to the received data, and registered in the imaging order DB 535.
[0064]
Further, it is also possible to input the imaging order information from the control device 10 based on the CR application program without using the general-purpose browser function for the RIS client. In this case, when a display of a photographing order registration screen is instructed by the input unit 12 and order data is input from this screen, the input data is added to a transmission flag and stored in the transmission / reception data storage unit 164 of the HDD 16a. The communication control unit 14 confirms the communication state and, when communication is possible, is transmitted to the RIS server 50 in order units based on FTP. When the RIS server 50 receives the order data, the RIS server 50 adds a shooting ID to the received data, generates shooting order information, and registers the shooting order information in the shooting order DB 535.
[0065]
FIG. 10 shows a processing sequence executed by the control device 10 and the RIS server 50 when the control device 10 instructs the end of the examination.
When the end of the examination is instructed by the input unit of the control device 10 (step S21; YES), the cassette ID, the image ID, and the photographing order stored in the transmission / reception data storage unit 164 of the HDD 16a are included in the photographing order information on which the examination is completed. The date and time, radiographic information and the like are updated in association with each other (step S22). At this time, a transmission flag is also associated with the imaging order information. Next, the communication state of the network N and the RIS server 50 is confirmed by the communication control unit 54 (step S23), and if communication is possible (step S23; YES), the updated data is taken as one image based on the FTP. The data is transmitted to the RIS server 50 in order units (step S24). If communication is not possible (step S23; NO), this processing ends.
[0066]
When the RIS server 50 receives the imaging order information from the control device 10, a reception confirmation notification is transmitted to the control device 10 (step S25), and the record of the same imaging ID in the imaging order DB 535 is stored in the received imaging order information. The data is overwritten, and the correspondence between the photographing order information and the photographing execution information on the network N is determined (step S26). In the control device 10, when the reception confirmation notification is received, the transmitted data is deleted from the transmission / reception data storage unit 164 (step S27), and this processing ends. The read image is desirably transmitted to the image DB 163 after the correspondence between the imaging order information and the imaging related information is determined on the RIS server 50 side.
[0067]
In step S25, the record of the same photographing ID in the photographing order DB 535 is overwritten with the received photographing order information. However, data mismatch (for example, if the contents of the photographing order information do not match, the same If the record of the photographing ID has already been associated with the photographing execution information, etc.), the data mismatch is notified to the control device 10 without overwriting, and an error is displayed on the display unit 13 of the control device 10. You may make it do.
[0068]
Here, DICOM (Digital Image and Communications in Medicine) standard is generally used as a communication system in a hospital, and generally, DICOM MWM (Modality Worklist Management) is used for communication with the above-mentioned RIS server. ) Or DICOM MPPS (Modality Performed Procedure Step). However, in this method, after establishing communication, actual data communication is performed after negotiations are performed between devices to determine whether or not a service requested in communication can be realized by parameter negotiation. Therefore, if data is frequently transmitted and received, it takes a long time, which causes a delay in a shooting workflow. In particular, in the CR imaging system, unlike the modality system that is a reserved imaging, access to the RIS database (imaging order DB 535) by unplanned imaging jumping of an emergency or the like or change (addition, deletion, correction) of the number of images to be taken. Therefore, it is important to shorten the data transmission / reception time.
[0069]
Therefore, the control device 10 and the RIS server 50 transfer the data for each file with the imaging order information as one file based on the FTP. Only the file notation adopts the DICOM TAG method.
[0070]
The DICOM TAG format is a format in which the contents of each file are represented by GROUP_Element_Length (actual data). For example, when transmitting and receiving the photographing order information, a file containing at least a code indicating a name and a photographing condition is transmitted to the actual data.
Example) 0001 0221 30 Taro Yamada_02000001
[0071]
According to the above-described communication method, it is not necessary to negotiate at the time of communication as in the case of the above-mentioned MWM or DICOM MPPS, and quick data exchange can be performed using general-purpose FTP. For this reason, it is possible to reduce delays in the imaging workflow due to frequent data transmission and reception.
[0072]
If it is determined in step S23 of FIG. 11 that communication is not possible, the imaging order information remains stored in the transmission / reception data storage unit 164 of the HDD 16a with a transmission flag added. Therefore, the CPU 11 of the control device 10 searches the photographing order information to which the transmission flag is added at regular intervals according to the CR application, and when the communication control unit 14 determines that communication is possible, the searched photographing order information is retrieved. The information is transmitted and deleted from the HDD 16a. Accordingly, the photographing order information to be transmitted when communication is possible can be transmitted, so that communication can be performed without incurring a delay in the workflow of photographing.
[0073]
When communication with the RIS server 50 is impossible, one of the control devices 10 is switched to be used as the RIS server, and thereafter, reception of a medical image from the medical image reading device 20 by inspection, Instead of storing the data in the HDD 16a, the function may be used only for storing the input order data and the photographing execution information. That is, the order data and the photographing execution information input from the other control device 10 are received and stored in the HDD 16a. Then, after the RIS server 50 returns, the data stored in the HDD 16a is transmitted to the RIS server 50, and the function is switched to the original function. In this way, even if the RIS server 50 goes down, the control device 10 can continue the work without interrupting the shooting workflow.
[0074]
As described above, according to the medical imaging management system 100, the control device 10 has a function of a general-purpose browser for a RIS client, and the RIS server 50 has a function as an HTTP server. The control device 10 accesses the RIS server 50 with the RIS client general-purpose browser, and displays a shooting order list of the day on the web screen and selects shooting order information to be acquired. The imaging order information selected on the web screen is retrieved from the imaging order DB 535 of the RIS server 50 and transmitted to the control device 10 based on the FTP.
[0075]
Further, transmission and reception of the imaging order information and the imaging execution information after the examination is completed between the control device 10 and the RIS server 50 are performed via the HDD 16a, and transmission / reception data is stored. The data transmitted from the control device 10 to the RIS server 50 is transmitted when communication is possible after confirming whether or not communication is possible, and transmitted after the reception notification by the RIS server 50. Is deleted from the HDD 16a. If communication is not possible, the data to be transmitted is stored in the HDD 16a as it is, and untransmitted data is searched and transmitted at regular intervals.
[0076]
Therefore, the photographing order information received from the RIS server 50 is stored in the HDD 16a, and the photographing order information and the photographing execution information to be transmitted to the RIS server 50 are stored in the HDD 16a and deleted from the HDD 16a after transmission. The information under management can be clarified. Therefore, when an abnormality is found in the imaging order information or the like (for example, when the imaging execution information is not associated with the imaging order information for which the inspection should have been completed), the RIS server 50 and the control device 10 The cause can be easily identified.
[0077]
In addition, in order for the control device 10 to function as an RIS client that displays a photographing order list and selects and acquires photographing order information, it is necessary to mount a function as an HTTP server on the RIS server 50 side. The control device 10 can operate as an RIS client without greatly changing the internal configuration of the conventional control device 10 only by providing a general-purpose web browser. In particular, when a plurality of control devices 10 are provided, the above-described system configuration is advantageous.
[0078]
In addition, since data to be transmitted is stored in the HDD 16a and information to be transmitted can be transmitted when communication is possible, communication can be performed without incurring a delay in an imaging workflow.
[0079]
Further, quick transfer of imaging order information is performed between the control device 10 and the RIS server 50 using general-purpose FTP. Therefore, even if the photographing order information is quickly added and changed frequently, it is possible to reduce the delay in the photographing workflow due to the transfer of the photographing order.
[0080]
The description in the above embodiment is a preferred example of the present invention, and the present invention is not limited to this.
[0081]
For example, in the above embodiment, a medical image capturing management system of a CR device using a cassette has been described as an example. However, the present invention is also applicable to a medical image capturing management system of a CR device that captures a standing position and a recumbent position. Can be applied. In addition, the present invention can be applied to a medical imaging management system using CT or MRI.
[0082]
In addition, the detailed configurations and detailed operations of the medical image capturing management system 100 and the respective devices constituting the medical image capturing management system 100 can be appropriately changed without departing from the spirit of the present invention.
[0083]
【The invention's effect】
According to the first and ninth aspects of the present invention, in the medical image photographing management system, the control device stores the photographing order information received from the information management device in the storage unit, and photographs the inputted photographing-related information. The information is stored in the storage unit in association with the order information, and then transmitted to the information management device. Therefore, since the information under the control of the control device can be clarified, when the information such as the imaging order information is found in the medical image capturing management system, the information management device and the control device It is easy to determine the cause of the problem, and the reliability and safety of the medical image photographing management system can be improved.
[0084]
According to the second aspect of the present invention, the information management device has an HTTP server means, the control device has a general-purpose browser means, and the control device has a photographing device which is obtained from the information management device through the HTTP server means and the general-purpose browser means. The order information is selected and acquired from the information management device. Therefore, the control device can easily select and acquire the photographing order information from the information management device without greatly changing the internal configuration only by installing a general-purpose browser.
[0085]
According to the invention described in claim 3, the control device can associate the imaging order information with the medical image and / or the imaging-related information in the imaging using the cassette.
[0086]
According to the fourth aspect of the present invention, in the control device, the input for generating the imaging order information and the input of the imaging related information can be performed, and the input imaging order information and the imaging related information related to the imaging order information can be input. Can be associated with. Therefore, in the control device, it is possible to perform from the input of the photographing order information and the photographing related information to the association of the photographing order information and the related photographing related information.
[0087]
According to the invention described in claim 5, the control device determines whether communication with the information management device is possible, and when the communication is possible, the control unit determines whether or not the photographing order stored in the storage unit in the information management device. The information and the photographing-related information are transmitted, and the transmitted information is deleted from the storage unit. Therefore, since information is transmitted when communication is possible, communication can be performed without incurring a delay in the workflow of shooting. Further, since the information which is no longer under the control of the control device is deleted from the storage means, the storage means can be used efficiently.
[0088]
According to the invention described in claim 6, since the photographing order information and the photographing related information associated with the photographing order information are transmitted and received based on the FTP, the information can be easily obtained in file units using a general-purpose communication protocol. Can be exchanged, and necessary information can be transmitted and received quickly.
[0089]
According to the seventh aspect of the present invention, since transmission / reception is performed in units of one imaging order, necessary information can be transmitted / received quickly.
[0090]
According to the invention described in claim 8, information can be transmitted and received for each file described in the DICOM TAG system.
[Brief description of the drawings]
FIG. 1 is a diagram conceptually showing the overall configuration of a medical image photographing system 100 according to the present invention.
FIG. 2 is a block diagram showing a functional configuration of a control device 10 of FIG.
FIG. 3 is a diagram showing a program stored in a storage device 16 of FIG.
FIG. 4 is a diagram showing an example of data storage in an HDD 16a of FIG.
FIG. 5 is a block diagram showing a functional configuration of the RIS server 50 of FIG.
FIG. 6 is a diagram showing a configuration of an HTTP server program of FIG. 6;
7 is a schematic explanatory diagram of communication between the control device 10 and the RIS server 50 in FIG.
8 is a diagram showing a processing sequence when the control device 10 of FIG. 1 acquires imaging order information from the RIS server 50. FIG.
9 is a diagram showing an example of a photographing order list screen 131 displayed on the display unit 13 of FIG.
10 is a diagram showing a processing sequence when the control device 10 of FIG. 1 transmits imaging order information and imaging execution information to the RIS server 50.
[Explanation of symbols]
10 Control device
20 Medical image reading device
30 X-ray equipment
40 cassettes
50 RIS server
11, 51 CPU
12 Input section
13 Display
14 Communication control unit
15, 52 RAM
16, 53 storage device
16a, 53a hard disk
17, 55 bus
161 CR application program
162 General-purpose browser for RIS client
163 Image DB
164 transmission / reception data storage
165 Display frame memory
531 HTTP server program
532 CGI script
533 HTML file
534 HTTP server software
535 photography order DB
100 Medical imaging management system
N network

Claims (9)

An imaging device for imaging a medical image of a patient;
An information management device for generating and managing shooting order information,
A reading device for reading the taken medical image,
Comprising at least one control device associating the imaging order information with the read medical image,
The information management device, the reading device, a medical imaging management system in which the control device is connected via a communication network,
The control device has storage means and input means for inputting imaging-related information related to the imaging order information, and stores the imaging order information received from the information management apparatus in the storage means, Medical image radiographing management, wherein the radiographing order information is stored in the storage unit in association with the input radiographing-related information, and the stored radiographing order information and radiographing-related information are transmitted to the information management device. system. The information management device has an HTTP server means,
The control device has a general-purpose browser means, selects the imaging order information to be acquired from the information management device through the HTTP server means and the general-purpose browser means,
The medical image photographing management system according to claim 1, wherein the information management device transmits the selected photographing order information to the control device. The imaging device is an imaging device that uses a cassette that records the medical image,
The reading device reads the identification information of the cassette together with the medical image and transmits the information to the control device,
3. The medical image imaging management system according to claim 1, wherein the control device associates the imaging order information with the medical image and / or the imaging related information based on identification information of the cassette. . The input unit is capable of inputting the shooting order information and inputting the shooting related information, and the control device is configured to control the input shooting order information and shooting related information related to the shooting order information. The medical image capturing management system according to any one of claims 1 to 3, wherein The control device determines whether communication with the information management device is possible, and when the communication is possible, transmits the imaging order information and imaging related information stored in the storage unit to the information management device. The medical image photographing management system according to any one of claims 1 to 4, wherein the transmitted information is deleted from the storage unit. The said control apparatus and the said information management apparatus transmit / receive the said imaging | photography order information and imaging | photography relevant information matched with the said imaging | photography order information based on FTP, The Claims any one of Claims 1-5 characterized by the above-mentioned. The medical imaging management system described. 7. The medical image photographing management system according to claim 6, wherein the transmission and reception of the photographing order information and the photographing-related information associated with the photographing order information are performed in units of one photographing order. The medical image photographing management system according to claim 7, wherein the transmitted / received photographing order information and the photographing-related information associated with the photographing order information are described in a DICOM TAG format. An imaging device for imaging a medical image of a patient;
An information management device for generating and managing shooting order information,
A reading device for reading the taken medical image,
At least one control device that associates the imaging order information with the read medical image,
A communication method in a medical imaging management system in which the information management device, the reading device, and the control device are connected via a communication network,
In the control device, a step of storing the imaging order information received from the information management device in storage means,
A step of storing the imaging-related information related to the imaging order information in the storage unit in association with the imaging order information, and transmitting the stored imaging order information and the imaging-related information to the information management device;
A communication method in a medical image photographing management system, comprising:

Images